Abstract
Insect societies require an effective communication system to coordinate members’ activities. Although eusocial species primarily use chemical communication to convey information to conspecifics, there is increasing evidence suggesting that vibroacoustic communication plays a significant role in the behavioural contexts of colony life. In this study, we sought to determine whether stridulation can convey information in ant societies. We tested three main hypotheses using the Mediterranean ant Crematogaster scutellaris: (i) stridulation informs about the emitter’caste; (ii) workers can modulate stridulation based on specific needs, such as communicating the profitability of a food resource, or (iii) behavioural contexts. We recorded the stridulations of individuals from the three castes, restrained on a substrate, and the signals emitted by foragers workers feeding on honey drops of various sizes. Signals emitted by workers and sexuates were quantitatively and qualitatively distinct as was stridulation emitted by workers on different honey drops. Comparing across the experimental setups, we demonstrated that signals emitted in different contexts (restraining vs feeding) differed in emission patterns as well as certain parameters (dominant frequency, amplitude, duration of chirp). Our findings suggest that vibrational signaling represents a flexible communication channel paralleling the well-known chemical communication system.
Highlights
Insect societies require an effective communication system to coordinate members’ activities
Chemical signalling represents the primary mode of intra-colony communication in ants, vibrational communication is involved in several behavioural contexts and it is an additional method of conveying information among n estmates[6]
In the more defined recordings each chirp unit was composed of a fundamental frequency component which in most cases corresponded to the dominant frequency, and several harmonics
Summary
Insect societies require an effective communication system to coordinate members’ activities. Chemical signalling represents the primary mode of intra-colony communication in ants, vibrational communication is involved in several behavioural contexts and it is an additional method of conveying information among n estmates[6]. The species Dolichoderus thoracicus and Aphaenogaster carolinensis were shown to produce vibroacoustic signals by scraping a substrate with their m andibles[17,18] Besides these modalities involving unspecialised morphological features, stridulation relies on a specialised stridulatory organ in which two sclerotised body parts are scraped together[19]. This organ has evolved multiple times in ants, and was described in almost all the studied species of the Nothomyrmecinae, Pseudomyrmicinae, Myrmicinae, Ectatomminae, Paraponerinae, and Ponerinae subfamilies[5]. Stridulation is a defined behavior, not associated with pheromone emission
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